DE4002876A1 - Cyclone smelting process esp. for ore concentrates - using carrier gas to transport solids and enhance vortex in cyclone - Google Patents

Abstract

Fine solids (esp non-ferrous metal ore concentrates) are treated at high temp by feeding into a smelting cyclone while injecting 02-contg gas tangentially through one or more nozzles to to form a vortex in which the solids are smelted, the resulting melt being sepd from off-gas below the cyclone. The pneumatically fed solids are sepd from carrier gas in one or more precipitators and then fed from above into the cyclone, at least part of the sepd carrier gas being injected tangentially into the cyclone for enhancement of the vortex. Equipment for carrying out the process is also claimed. USE/ADVANTAGE - For smelting sulphidic or even complex Cu ore concentrates for direct recovery of relatively pure copper. Allows solids feed over long distances, provides high smelting rates with minimal cyclone wear and dust losses, has extremely low energy costs and gives almost complete reaction of the individual particles of the solids.

Description

The invention relates to a method for Hochtemperaturbe treatment of fine-grained, at treatment temperatures molten products resulting solids, esp non-ferrous metal ore concentrates which are in one Melting cyclone are introduced into the tangential over at least one nozzle injected oxygen-containing gas is, wherein the fine - grained substances in the eddy current of Melting cyclones are melted at high temperature and below the melting cyclone the melt from the exhaust ge is separated. Moreover, the invention relates to a Einrich for the implementation of the procedure.

For pyrometallurgical treatment of fine-grained sulfi It is ore ore concentrates in a melting cyclone known (DE-AS 20 10 872 and DE-OS 33 35 859), the fine Some solids in piping are pneumatically melted to promote cyclone and the solid-conveying air suspension  by in the Schmelzzyklonmantel tangentially arranged nozzles at high speed in the Schmelzzyklon einzubla where the ore concentrate at high temperature in the vortex stream is continuously roasted and melted. in the Melting cyclone are due to the intensive mass transfer between gas and solid high volatilization rates ver volatile solid components and high melt rates not volatilizable components achievable. Therefore has the known suspension melt in the melting cyclone for pyrometallurgical direct extraction z. B. from copper sulfidic copper ore concentrates, also from complex Concentrates, with obtaining a comparatively pure raw copper and a copper-poor slag special meaning obtained.

Since the distances between the storage bunker of the fine-grained solid and the melting cyclone in large-scale industrial plants are usually considerable, the pneumatic transport of solids to the melting cyclone is usually indispensable. Especially in the cases where a blower nozzles of the melting cyclone a solid conveying air suspension arrives at high speed, the risk is not excluded that the injection nozzles for the fine-grained solids wear prematurely and that with a corresponding impulse pneumatically thrown into the melting cyclone Solids, especially if they do not melt, cause significant wear at the point of impact of the fire-lined cyclone inner wall, which may affect the operational availability of the melting cyclone. In addition, in a melting cyclone, in which the solid material material is thrown together with a carrier gas stream, the reaction time required for reacting and melting the individual solid particles, for which practically only the flight path of the particles from the injection nozzle to the opposite Zykloninnenwandung available, too short Be what can make it noticeable that the exothermic roast reaction stops and there is a risk of freezing of the enamel cyclone and / or that the discharged with the exhaust stream below from the melting cyclone dust content is high. These potential disadvantages are retained even if the solid carrier gas suspension from the top of the high-momentum vertical jet melting cyclone would be injected into the melting cyclone. The caused by tangentially injected secondary air We belstrom in the melting cyclone can then in relation to Ver tikalimpuls the solid carrier gas suspension become too weak, especially if instead of secondary air O ₂ -angerei cherte air or even technically pure oxygen is set.

The invention is based on the object at the Hochtem temperature treatment of fine-grained substances in a melt cycle clone to which the solids pneumatically over long distances be conveyed as a solid carrier gas suspension, to ensure that at high melt rates and as possible low melting cyclone wear and exhaust Dust losses and at the lowest possible energy consumption the individual particles of the solid material as possible can completely react.

This task is procedurally with the measures of Marking part of claim 1 and device with the measures of the characterizing part of claim 6 solved.  

According to the pneumatically conveyed fine-grained solids in at least one separator, which is arranged in the area above the Schmelzzyklones is advantageously separated from the solid-carrier gas suspension abge. The in the separator, z. As cyclone separator or filter, separated solids are then introduced without För dergas from above into the melting cyclone alone by gravity force without vertical impulse, where they are detected immediately by the eddy current of the tangentially injected oxygen-containing gas. To increase the swirl of the eddy current is taking advantage of the energy of the carrier gas flow of the pneumatically conveyed solid carrier gas suspension at least a portion of the conveying gas after the separation carried out in the separator tan gential injected into the melting cyclone, whereby the flow contained in the solid conveying gas suspension energy is at least partially usable in the melting cyclone. In the solution according to the invention, the individual solid particles have sufficient time to fully react as possible, for. As the sulfide full constantly in SO _{2 to} implement, and to melt, so that the reaction and melt rate in the melting cyclone comparatively se high and its exhaust gas losses are relatively ge ring.

The invention and its further advantages are based on the in the drawing schematically illustrated Ausführungsbei explained in detail.

The drawing shows schematically a pyrometallurgical device for the smelting of fine-grained sulphide copper ore concentrate, which together with aggregates such as slag from a storage bin ( 10 ) via a metering device ( 11 ) continuously in the pressure line ( 12 ) of a compressor ( 13 ) for pneumatic transport of solid Feed gas suspension is fed. As conveying gas for the pneumatic transport of fine-grained solids, air or oxygen with z. B. to about 40% O ₂ enriched gas can be used. The in line ( 12 ) pneumatically funded solid carrier gas suspension is not injected directly into the melting cyclone ( 14 ), but initially at least one of the Schmelzzyklonoberseite immediately associated solid separator such. B. cyclone ( 15 ) supplied, in which the solids ( 16 ) from the conveying gas ( 17 ) are separated. The solids discharge of the cyclone ( 15 ) is connected via a mechanical solids conveyor such as screw conveyor ( 18 ), vibratory conveyor or the like and a cooled pipe section ( 19 ) with at least one in the lid of the melting cyclone ( 14 ) arranged Feststoffein guide opening ( 20 ). In the embodiment z. B. four over the circumference of the Schmelzzyklonoberseite ( 21 ) distributed solid introduction openings available, each associated with a cyclone separator ( 15 ). However, it is also possible to provide a central cyclone separator ( 15 ) and distribute its solids discharge to the four solids introduction openings ( 20 ) of the Schmelzzy clone ( 14 ).

The solids ( 22 ) are conveyed by the screw conveyor ( 18 ) together with sealing air, which prevents backfire of the sulphide ore concentrates and their melting on the Förderorganwandungen. Otherwise, the solids ( 22 ) are introduced without Vertikalimplus only under heavy force through the introduction openings ( 20 ) in the melting cyclone ( 14 ). The Einströmungsgeschwin speed of the sealing air at the introduction openings ( 20 ) may, for. B. be about 2 m / sec. It is also possible, the solids ( 22 ) to mix coal dust as additional fuel or as a reducing agent.

According to the four over the circumference of the melting cyclone top ( 21 ) distributed solid introduction openings ( 20 ) four tangentially arranged injection nozzles ( 23 ) are provided on the jacket of the melting cyclone ( 14 ), which are each arranged in the vertical plane through the solids introduction openings ( 20 ). The conveying gas ( 17 ) after the cyclone in the separator ( 15 ) carried out solids separation via the line ( 24 ) to the nozzle ( 23 ) or to the four nozzles ge promotes and together with oxygen ( 25 ) and additional fuel ( 26 ) such. B. natural gas tangentially injected into the Schmelzzy clone ( 14 ). The conveying gas ( 17 ) can also be blown into the melting cyclone ( 14 ) depending Weil between the solids introduction openings ( 20 ). In any case, the energy is utilized by the tangential injection of the conveying gas ( 17 ) and thereby amplifies the eddy current ( 27 ) forming in the melting cyclone ( 14 ).

The introduced from above into the melting cyclone ( 14 ) solids ( 22 ) are at current heating to high Tem temperature of z. B. 1600 ° C in fractions of seconds, even while they are in the floating or fluidized state be completely roasted and melted. The combus- tion of sulfide sulfur and optionally other oxi dierbarer components in the oxygen atmosphere can provide enough heat to drain the roasting and melting process autogenous. At the bottom of the melting cyclone ( 14 ), the low-dust exhaust gas ( 28 ) is withdrawn separately from the melt ( 29 ), which as a melt film on the Schmelzzykloninnenwandung spiraling down.

Numerical example

Entry quantities into the melting cyclone 14 , in each case total amounts:

Solids 22 (fine-grained sulphide copper ore concentrate plus surcharges) | 25 t / h Oxygen 25 4160 Nm³ / h Fuel (natural gas) 930 Nm³ / h Conveying air 17 (after solids separation) 2400 Nm³ / h Dusts in the melting cyclone exhaust 28 (recirculated to the melting cyclone) <3%

It is understood that in the pyrometallurgical Einrich tion of the drawing embodiment except sulfi Disches Kupfererzkonzentrat also other non-ferrous metals Ores or concentrates as well as residues and slags metallurgical processes can be processed to to dispose of such substances or to enrich metal To win products.

Claims (10)

1. A process for the high temperature treatment of feinkörni gene, at treatment temperatures molten prodcucts resulting solids, especially non-ferrous ore concentrates, which are cloned into a Schmelzzy cloned into the tangentially via at least one nozzle oxygen-containing gas sen, the fine-grained materials in the vortex stream of Melting cyclones melted at high temperature ge and below the melting cyclone, the melt is separated from the exhaust gas, characterized in that the pneumatically fed feinkör-sized solids in at least one separator ( 15 ) from the solid conveying gas suspension ( 12 ) abge be separated, that the separated solids ( 16 ) are introduced without conveying gas from above into the melting cyclone ( 14 ), and that at least a portion of the conveying gas ( 17 ) after the separation in the separator ( 15 ) succession th solids separation tangentially in the Schmelzzy clone to amplify its eddy current ( 27 ) e will blow in. 2. The method according to claim 1, characterized in that the conveying gas ( 17 ) of the pneumatically conveyed solid conveying gas suspension ( 12 ), after separation of the solids ( 16 ), together with the sauerstoffhal term gas ( 25 ) and optionally together with set fuel ( 26 ) is blown tangentially into the melting cyclone ( 14 ). 3. The method according to claim 2, characterized in that the inlet velocity of the gas-fuel mixture in the melting cyclone ( 14 ), measured at the nozzle orifice ( 23 ), greater than 100 m / sec. is. 4. The method according to claim 1, characterized in that the fine-grained solids ( 16 ) after separation of the conveying gas ( 17 ) over several over the circumference of the Schmelzzyklonoberseite ( 21 ) distributed Einführungsöff openings ( 20 ) are introduced into the melting cyclone ( 14 ). 5. The method according to any one of claims 1 to 4, characterized characterized in that as conveying gas to the pneumatic Transport the solids air or one with oxygen enriched gas is used. 6. A device for the high-temperature treatment of fine-grained, at treatment temperatures molten products resulting solids, especially non-ferrous ore concentrates, with at least one Lei device for pneumatic feed of the solid För dergas suspension ( 12 ) and with a melting cyclone ( 14 ) with at least one on Schmelzzyklonmantel An ordered injection nozzle ( 23 ) for tangential Einbla sen an oxygen-containing gas ( 25 ), gekennzeich net by the following features:

• a) in the pneumatic conveying line at least one solids separator ( 15 ) is arranged;
• b) the top side ( 21 ) of the substantially vertically arranged melting cyclone ( 14 ) has at least one solids introduction opening ( 20 ) which is connected to the solids discharge of the solids separator ( 15 );
• c) the gas outlet of the solids separator ( 15 ) communicates with at least one tangential injection nozzle ( 23 ) of the melting cyclone shell ( 14 ).

7. Device according to claim 6, characterized in that the solids separator ( 15 ) is a cyclone separator. 8. Device according to claims 6 or 7, characterized in that the solids discharge of the solid separator ( 15 ) via a mechanical solids conveyor such as screw conveyor ( 18 ), vibratory conveyor or the like with the at least one solid introduction opening ( 20 ) of the melting cyclone ( 14 ). 9. Device according to one of claims 6 to 8, characterized in that at several over the circumference of the Schmelzzyklonoberseite ( 21 ) distributed Feststoffein guide openings ( 20 ) a plurality of Schmelzzyklonmantel tangentially arranged Sauerstoffeinblasdüsen ( 23 ) are present, and that arranged on the Schmelzzyklonmantel Einblasstellen the delivery gas ( 17 ) freed from the pneumatically conveyed solid is arranged in each case in the vertical plane through the solid introduction openings ( 20 ) or in-between. 10. Device according to one of claims 6 to 9, characterized in that the injection nozzles ( 23 ) are distributed to a plurality of different levels of horizontal horizontal planes of the melting cyclone ( 14 ).